ADDENDUM NO.1. March 4, 2013 HEAT PUMP REPLACEMENT FOR: GATE CITY ELEMENTARY SCHOOL

ADDENDUM NO.1 March 4, 2013 HEAT PUMP REPLACEMENT FOR: GATE CITY ELEMENTARY SCHOOL The data included hereinafter is issued by the Engineer (Engineered Systems Associates, 1355 East Center, Pocatello, ID 83201) as clarification, addition to, and/or deletion from the Drawings, Specifications, and Contract Documents relative to the above-named project. Except as affected by data included hereinafter, all other parts of the Contract Documents shall remain in full force and effect as issued by the Engineer. It shall be the sole responsibility of the Bidder to appropriately disseminate this data to all concerned prior to the assigned bid time and date. Receipt of the addendum shall be recorded by the Bidder in the appropriate space on the Bid Form included in the Contract Documents. SPECIFICATIONS: A. DIVISION 01 GENERAL PROVISIONS: 1. 01140 Roofing Repairs Add: There is no existing warrantee on the metal roof. Contractor shall make sure the cutting and patching of the existing metal roof is done by someone who is proficient in metal roof repairs so as to maintain the integrity of the existing roof. B. Section 23 5823 Gas Fired Fresh Air Unit: 1. The gas fired unit shall be equipped with a multi-stage or modulating gas valve. 2. The discharge air temperature will be controlled by the automatic temperature control system. C. Section 23 0933 Automatic Temperature Controls 1. Replace the entire Section 23 0933 with the enclosed section. DRAWINGS: A. Sheet ME1.2: 1. Plan Note 7 there is not enough room inside the existing furr down to install the new piping as shown. The Contractor shall run the new piping along the existing furr down and extend the furr down to cover the new piping. Offset as necessary in the accessible ceiling space above the office areas to miss the existing ducts. B. Sheet ME2.1: 1. Add circulating pump CP-4 into boiler piping diagram. Add two inch supply line to the boiler complete with check valve and balance valve on the discharge of the pump. 2. Provide electrical disconnect switch with control relay and electrical power from (120/208 volt) Panel P in the Boiler Room. C. Sheet ME2.2 Circulating Pump Schedule: 1. Add pump CP-4 inline 80gpm at 20 foot head. ¾ hp. 120/60/1 B&G series 60 size 2x2x5.25. ACCEPTED EQUIPMENT SUBSTITUTION REQUESTS: A. Ceiling Fans: 1. Breidest B. Kitchen Hood Fan: 1. Aerovent C. Utility Bowers: 1. Aerovent D. Pump Connectors: 1. Mason 2. Engineered Flex E. VFD a. Danfoss Addendum #1/1

F. Louvers & Dampers: 1. NCA MFG G. Grilles & Registers: a. Tuttle & Bailey H. Flues & Caps: a. Schebler I. Outside Air Unit Note: Physical size is critical to fit space available. Supplier to verify size meets that specified. a. Trane b. Modine c. Airdale J. Water Source Heat Pump: a. Water furnace K. Boiler: a. Lochinvar SBN 1000 SYNC END OF ADDENDUM No. 1 Addendum #1/2

SECTION 23 0933 AUTOMATIC TEMPERATURE CONTROLS PART 1 - GENERAL 1.1 GENERAL CONDITIONS: A. The General Conditions, Supplementary General Conditions, alternates and addenda, applicable drawings and the technical specifications, shall all apply to all work under this division. 1.2 DDC CONTROL SYSTEM, AUTOMATED LOGIC WEBCONTROL BY CLIMA-TECH CORP A. Statement of Intent 1. School District No. 25 wishes to purchase an installed control system for interface for the new controls shall be integrated into School District No. 25 existing WebCTRLTM frontend software. The graphical user interface shall display real time values of all system operating conditions. Additionally, it shall include graphic displays of system programming, operating logic and logic flow. It shall be capable of displaying that logic flow with real time values of logical inputs and outputs. Graphical displays shall be consistent with those currently available for the server room equipment. The features of the system must be fully installed, configured and demonstrated in a manner that provides maximum benefit to the end user. Connectivity shall be over the owner s internal Ethernet system and, when allowed, over the Internet using the servers IP address. B. Specification Compliance 1. These specifications are intended to provide a minimum capability for the DDC system. Manufacturer s data sheets included in the submittals will be reviewed to verify significant hardware and software system features. Key system features must be documented by manufacturer s data sheets in the submittals or by demonstration of an existing installation. 1.3 DDC CONTROL SYSTEM, HONEWELL NIAGARA WEB AX FRAME WORK A. By Curtis Electric or Jake Mecham. Complete open protocol (closed protocol not acceptable) B. Statement Of Intent 1. School District No. 25 wishes to purchase an installed control system for interface for the new controls shall be integrated into School District No. 25 existing Honeywell Web AX frontend software. The graphical user interface shall display real time values of all system operating conditions. Additionally, it shall include graphic displays of system programming, operating logic and logic flow. It shall be capable of displaying that logic flow with real time values of logical inputs and outputs. Graphical displays shall be consistent with those currently available for the server room equipment. The features of the system must be fully installed, configured and demonstrated in a manner that provides maximum benefit to the end user. Connectivity shall be over the owner s internal Ethernet system and, when allowed, over the Internet using the servers IP address. C. Specification Compliance 1. These specifications are intended to provide a minimum capability for the DDC system. Manufacturer s data sheets included in the submittals will be reviewed to verify significant hardware and software system features. Key system features must be documented by manufacturer s data sheets in the submittals or by demonstration of an existing installation. 1.4 SCOPE OF WORK A. Control Hardware and Software 1. Automatic Temperature Control Contractor shall be responsible to furnish and install all control hardware and software necessary for complete DDC control system as specified. ATC contractor shall furnish all modules, temperature sensors, flow sensors, humidity sensors, IAQ sensors, control valves, control valve actuators, dampers, damper actuators and any other items necessary for a complete system and sequence of control, except those valves, dampers and actuators specified to be furnished by equipment supplier. When actuators are specified to be furnished by equipment supplier, that supplier shall be responsible for coordination of actuator control input for interface with DDC system without use of transducers. Automatic control valves, dry wells for fluid temperature sensors, dampers and actuators furnished by Temperature Control Contractor will be installed by Mechanical Contractors. B. Specifically the ATC Contractor shall furnish the following: 1. Individual unitary control modules for each unitary system: a. Water source heat pumps Automatic Temperature Controls 23 0933/1

b. Unitary package make-up air units c. New gas boiler d. New main pumps e. Cooling tower f. Cooling tower pumps C. Control Wiring and Interface to Line Voltage Control 1. ATC Contractor shall be responsible for control wiring to all control modules, sensors, pilot duty control relays and actuators required to provide sequences of operation as noted in Part 5. Installation of devices provided by others shall be the responsibility of the contractor providing those devices. ATC Contractor shall provide all control conduit within mechanical room or at equipment locations required to connect components included within this section. Electrical Contractor shall provide all required conduit, contactors, magnetic starters and motor control centers required for operation of mechanical systems except where specifically noted to be provided by equipment manufacturer. Unitary equipment will be supplied with required fan relays, compressor contactors, gas valves, electric heat sequencers and transformer ready for connection to control modules. D. Commissioning 1. ATC Contractor shall be responsible for self-commissioning of all hardware and software furnished with the project. Completed field commissioning sheets shall be included with the final as-built O&M manuals. These sheets shall include validation check fields for all physical and LAN inputs and outputs and graphics for each operating unit or system within the facility. Each system and point shall be listed, using logical names for future reference by the owner. Commissioning shall include calibration and verification of operation of each I/O and graphic field. Functional commissioning of software programming to meet sequences of operation as submitted and approved shall be verified on the field commissioning sheets. E. Training and Technical Support 1. Contractor shall provide two 4 hour training sessions to owner representatives on operation and servicing of automatic temperature control system. Training shall be oriented to making the owner self sufficient in the day to day use and operation of the DDC system. Additionally the training shall include information specifically focused on showing the owners representative methods of troubleshooting the mechanical systems using the DDC system. For this purpose, the trainer must be well grounded in both DDC system operation and in the mechanical systems service. 2. The contractor shall provide unlimited phone technical support to the owner s representative and at leat two visits to the job site during the one year warranty period. If the technical support location of the contractor is outside of the toll free calling area for the customer, the contractor shall have a toll free number or accept collect calls for the purpose of providing technical support. 1.5 SUBMITTALS AND O&M MANUALS A. Submittals 1. Submittals shall include the following sections: a. Title Page b. Table of Contents c. Typical Device Wiring Drawings d. Summary Bill of Materials e. Sequences of Operation f. Local Area Network Drawings g. Drawings for all operating systems showing both equipment and module connections 2. Manufacturers specification data sheets for all control modules, sensors, dampers, valves, actuators, flow switches, current sensors and transducers required in the project. B. O&M Manuals 1. O&M Manuals shall be furnished upon project completion and include technical instructions for all items originally included in the submittal with as built modifications and completed Commissioning Worksheets. O&M Manuals shall be included in 01092 M&O Manuals. Contractor s toll free technical support number or the words Call Collect with the contractor s regular phone number shall be on the front of the manual. 1.6 SYSTEM SOFTWARE A. System Software 1. All operating program and site specific software shall be furnished to the owner on CD ROM disks. Automatic Temperature Controls 23 0933/2

PART 1 - CAPABILITY 1.1 CONTRACTOR CAPABILITY A. Contractor shall maintain toll-free technical support phone line or accept collect phone calls during warranty period. B. Contractor shall provide service within 24 hours. C. Contractor service and installation technicians shall be technically proficient in both control systems and mechanical service. D. Contractor to make at least two job visits during the warrantee period to adjust or verify proper operation of controls and answer Owner s questions. PART 2 - HARDWARE 2.1 SYSTEM SERVER A. Software shall be installed on owner furnished server. Specifications for this server will be provided to the owner prior to installation. 2.2 FIELD HARDWARE A. BACnet Compatibility 1. The system shall be fully native BACnet at the time of installation. The system shall use BACnet as the native communication protocol between distributed controllers communicating on the controller network. B. Distributed Control 1. System shall observe the concept of distributed control. All modules shall have stand alone capability and shall maintain operator setpoints without connection to primary controllers or central station equipment. Modules shall be located at each operating equipment location such that individual systems or zones shall remain functional without communication to other systems on the network. Equipment operating logic, schedules and current trends shall reside in control modules serving each system. Use of global modules required to maintain programming, schedules or current trend data are not acceptable. C. Ethernet Gateway Routers 1. System shall include an Ethernet Router/Gateway between the control module network and owners Ethernet. This gateway shall route BACnet communications between the control module network and the owners IP network. If the system is not to be connected to customer Ethernet the gateway shall be capable of connection via a web browser on the local host server. D. Control Modules 1. Control modules shall include required inputs and outputs to meet sequence of operation and points list. Digital outputs shall be dry contact relays and analog outputs shall be industry standard 0-10 vdc, 2-10 vdc or 4-20 milli-amp. Triac digital outputs are not acceptable. Modules shall be fully programmable for maximum system flexibility. Application specific controllers are not acceptable. 2. All modules shall have battery backup capable of maintaining all programs, setpoints, schedules and trend information for a minimum of 7 days. 3. All schedules and current trends shall be maintained in the individual control modules. The modules shall be capable of maintaining sufficient trend samples to report 24 hours of trend history in 5 minute increments for each input or output. E. Temperature Sensors 1. Wall mounted zone temperature sensors shall be 10 k ohm thermistor. Zone sensors in primary occupied areas other than restrooms, hallways or storage rooms shall have setpoint adjustment to allow the occupants to raise or lower setpoint within operator defined paramenters. Additionally sensors in these primary areas shall have a push button to return the system to normal occupancy setpoints for an operator defined period. Exception will be common areas. Zone sensors for restrooms, hallways, storage rooms, gymnasiums, auditoriums and locker rooms shall be mounted on the back of an aluminum electrical box cover plate designed for zone sensing application. Gymnasium sensors shall also include a key access override feature and protective guards. 2. All other temperature sensors shall be industry standard thermistor or 4-20 milli-amp. Immersion sensors shall be mounted in a blind well for future serviceability. F. Valve and Damper Actuators Automatic Temperature Controls 23 0933/3

1. Actuators shall be manufactured by Belimo. Torque shall be rated for required load. Modulated actuator input shall be industry standard 0-10 vdc, 2-10 vdc, 4-20 milli-amp, floating motor (tri-state), or pulse width modulation. Two or three position operation is not acceptable for economizers, VAV dampers, multizone dampers, valves or any other application specifying modulated operation. G. Dampers 1. Outside air control dampers shall have neoprene or vinyl-grip blade seals, stainless spring steel edge seals and a specified leakage rate of not more than 65 CFM/damper face area at 2 W.G. static pressure drop. H. Wire 1. All wiring in open areas at heights below 12 feet must be run in conduit, otherwise control wiring may be run open in accessible ceiling or underfloor areas. Control wiring in non-accessible ceilings, walls or floors shall be in conduit. All wiring not in conduit or control cabinets shall be rated for plenum installation. Communication wiring shall be run in data cable tray whenever possible. PART 3 - PRODUCT 3.1 SOFTWARE CAPABILITY A. BACnet COMPATIBILITY 1. The system shall be fully native BACnet at the time of installation. This means that the system must use BACnet as the native communication protocol between distributed controllers communicating on the controller network. 2. Programming for the system shall use BACnet objects and services. All BACnet objects and services shall be opened for read and/or read/write access during programming for future exposure to other BACnet systems. The front end software for the system shall be able to query other third party BACnet points for read/write access. B. Graphical Programming 1. The system shall be programmed using a graphical programming language for ease of operator understanding. Operating sequences and logic flow shall be assembled in a schematic format using MicroBlocks representing inputs, outputs and logical functions such as setpoints, switches, limits, relays, PIDs etc. The programming software shall be furnished within this scope of work. 2. Full simulation capability shall also be provided with the graphic programming. User shall be able to fully simulate the constructed sequence on screen before the sequences are downloaded into the controllers. The system shall also include the ability to simulate multiple graphic programs communicating with each other on a simulated network. C. Graphical Interface Software 1. The operators interface software shall be graphics based and display in 256 colors at a minimum 1024x768 pixel resolution. Graphics display screens shall include a system level graphic of either a map of facilities or an elevation of the building, a graphic of each building floor plan and graphics for each operating system or unit within each building. Entry to the zone and equipment level interface graphics shall be through area maps and/or floor plans to facilitate user orientation. Additionally the system hierarchy shall be displayed in a fashion similar to Windows Explorer to enable the user to navigate to any graphical screen in the system by expanding building levels or floor levels and selecting a particular zone or system. Graphics shall be accessed by using a mouse or other pointer device. The system shall provide a visual indication of which building, floor and zone the user is accessing at any time. System shall be capable of changing all parameters and schedules, as well as downloading operating software from the same Graphical User Interface software program as that used for viewing system operation. D. Management Functions 1. The DDC system shall have the ability to schedule each individual zone, each building or floor or the entire network of buildings for any user with a single entry. Additionally the operator shall have the capability of assembling groups of zones, buildings or floors for single entry programming, e.g. several offices may be grouped for scheduling of Saturday operations. Available schedule types shall include normal operation, unoccupied operation, setback override and holidays. For maximum flexibility, schedules shall reside in the local control modules. Dated schedules shall be self managing and automatically delete after execution. E. Alarms, Trends and Reports 1. System and Temperature Alarms a. The system shall have the capability of monitoring conditions throughout the system and sending alarms or messages to an e-mail address, local PC or printer or to remote PC s, printers or to dial-up pagers. Alarms and messages shall be able to be prioritized for various levels of reporting and action. The operator shall have the ability to customize alarm text and messages. 2. Trends Automatic Temperature Controls 23 0933/4

a. The system shall be capable of trending any input or output, or any logical point within the graphic program. There shall be no limitation to the number of points that can be trended at any particular time. Modules shall store in live memory 288 trend samples points for each trended item. The interval between trend samples shall be adjustable from 1 second to 24 hours. Trends from one or more modules shall be able to be simultaneously displayed on a single trend graph. Operator shall be able to window any segment of a trend to enlarge the view by dragging a mouse to form the window. The system shall also have the ability of automatically downloading trend information from any module to the server or other computer connected to the network for historical trend storage. This trend information shall be able to be displayed on the trend graph along with live current trends in seamless fashion. Trend data collection requiring the use of a locally connected PC for data storage is unacceptable. 3. Reports a. The system shall be capable of generating reports of equipment run times, all trended points, temperature conditions, electric demand and usage and alarms or messages. The system shall also have the ability of automatically downloading report information from any module to the server or other computer connected to the network. The operator shall have the ability to create custom report and logging formats. PART 4 - MINIMUM 1/0 POINTS LIST 4.1 MINIMUM 1/0 POINTS REQUIRED Description Qty Module FB Type Point Name AI BI BO AO WTA Heat Zone Pump Qty> 31 Zone Temperature 1 SP Adj/Override 1 1 Supply Air Temp 1 Fan Status 1 Fan S/S 1 Cooling S/S 1 Heating S/S 1 Valve Open/Close 1 FB Pts Ttl Pnts Sum of Points 3 2 4 0 9 279 Zone Exhaust Fan Control Qty> 4 Exhaust Fan Status 1 Exhaust Fan S/S 1 Sum of Points 0 1 1 0 2 8 Zone Outdoor Air Unit 2 Qty> 2 Supply Air Temp 1 Fan Status 1 Fan S/S 1 Heating 1 S/S 1 Heating 2 S/S 1 Automatic Temperature Controls 23 0933/5

OA Damper 1 Sum of Points 1 1 4 0 6 12 Central Plant AI BI BO AO FB Pts Ttl Pnts OA Temp 1 Mech Rm Zone Temperature 1 Loop Supply Temperature 1 Loop Return Temperature 1 Loop Differential Pressure 1 Loop Pump 1 Status 1 Loop Pump 2 Status 1 Tower Pump 1 Status 1 Tower Pump 2 Status 1 Tower Fan Status 1 Boiler 1 Alarm 1 Loop Pump 1 S/S 1 Loop Pump 2 S/S 1 Tower Pump 1 S/S 1 Tower Pump 2 S/S 1 Tower Fan 1 S/S 1 Boiler 1 Enable 1 Electric Heater S/S 1 Loop Pump 1 Speed 1 Loop Pump 2 Speed 1 Boiler Pump Status 1 Boiler Pumps/s 1 Sum of Points 5 6 8 2 20 20 Total System Points 319 4.2 PROVIDE ADDITIONAL POINTS A. Provide additional points as required to match the sequence of operation and provide the Owner with the ability to control and view the operating parameters of the complete system. PART 5 - NETWORK AND DEVICES 5.1 GRAPHICAL USER INTERFACE SOFTWARE A. Operating system currently in operation by the School District: B. Upgrade as required to include the addition of this new building system. 1. The system shall support object duplication within a customer s database. An application, once configured, can be copied and pasted for easy re-use and duplication. All links, other than to the hardware, shall be maintained during duplication. Automatic Temperature Controls 23 0933/6

5.2 NETWORK MANAGEMENT A. The existing Graphical User Interface software shall be modified if required to provide a complete set of integrated network management tools for working with networks. These tools shall manage a database for all devices by type and revision, and shall provide a software mechanism for identifying each device on the network. These tools shall also be capable of defining network data connections between devices, known as binding. Systems requiring the use of third party network management tools shall not be accepted. B. Network management shall include the following services: device identification, device installation, device configuration, device diagnostics, device maintenance and network variable binding. C. The network configuration tool shall also provide diagnostics to identify devices on the network, to reset devices, and to view health and status counters within devices. D. These tools shall provide the ability to learn an existing network, regardless of what network management tool(s) were used to install the existing network, so that existing devices and newly added devices are part of a single network management database. E. The network management database shall be resident in the Network Area Controller, ensuring that anyone with proper authorization has access to the network management database at all times. Systems employing network management databases that are not resident, at all times, within the control system, shall not be accepted. 5.3 SPACE TEMPERATURE MODULES A. Space Temperature Wall Module: Temperature sensing modules mounted on the wall in occupied spaces. Optional setpoint, indication, and override switches must be provided as specified. 1. Manufacturers: Subject to compliance with requirements. Provide products by one of the manufacturers specified to match the existing School District system. a. Honeywell b. Automated logic 2. Wall module shall have a thermistor temperature sensor with operating range of 45 to 99 deg. F. designed for mounting on a standard electrical switch box. 3. The controller shall include Sylk Bus, a two wire, polarity insensitive bus that provides both 18 Vdc power and communications between a Sylk-enabled device and a Sylk-enabled controller. 4. Space temperature sensors shall be accurate to plus or minus 0.5 deg. F at 77 deg. F. 5. Space temperature sensors shall have a setpoint knob calibrated for warmer-cooler adjustments (calibrated to allow plus or minus adjustments to a software setpoint). 6. Wall module shall also have an after-hours override pushbutton and LED override indicator. END OF SECTION 23 0933 Automatic Temperature Controls 23 0933/7